Pulmonary Vein Stenosis | Diagnosis & Treatments
How is pulmonary vein stenosis diagnosed?
Pulmonary vein stenosis is typically diagnosed with one or more of the following procedures:
- an echocardiogram, which uses sound waves to make a moving picture of the heart’s structure and function
- cardiac catheterization, which uses a small, flexible tube threaded up to the heart to give very detailed information about the structures within the heart and lungs
- a computed tomography (CT) scan, a non-invasive procedure using x-ray equipment and powerful computers to produce detailed, cross-sectional images of a particular area of the body (such as the chest cavity)
- a pulmonary blood flow scan, or lung scan, which uses an injectable dye and a special camera to track the flow of blood through your child’s lungs
What are the treatment options for pulmonary vein stenosis?
Your child's exact treatment plan will be determined by:
- what other heart or lung problems they may have
- symptoms and overall health
- number of pulmonary veins affected
- extent of narrowing within the pulmonary veins
- your family's preferences
In many cases, multiple interventions will be necessary over time, since the narrowing process can recur and become more pronounced even after catheterization or surgery. Children with pulmonary vein stenosis typically need one or more of the following procedures to combat the harmful narrowing process and restore adequate flow of oxygen-rich blood to the heart.
Cardiac catheterization
Cardiac catheterization uses a thin tube, called a catheter, which is threaded from a vein or artery into the heart. The catheter is used to open narrowed passageways in the pulmonary veins and create new passageways if needed. There are two types of catheterization commonly used to treat PVS.
- Balloon dilation: The most common interventional catheterization procedure used here at Boston Children's is balloon dilation. With the child under sedation, a small, flexible catheter is inserted into a blood vessel, most often in the groin. Using tiny, highly precise cameras and tools, clinicians guide the catheter up into the inside of the heart and then into the affected areas of the pulmonary veins. A deflated balloon at the tip of the catheter is inflated once the tube is in place, and this balloon stretches the constricted area open, reversing the problematic narrowing.
- Balloon dilation and stent placement: The effects of balloon dilation can be amplified for some children with pulmonary vein stenosis by using a combination of balloon dilation and the placement of a balloon-expandable stent — a small, stainless steel tube. The stent is attached to the balloon dilation catheter as it is fed into the narrowed parts of the pulmonary veins.
The protective covering is removed when the catheter is in place, and the balloon is then inflated. The balloon affixes the stent within the pulmonary vein, stretching the narrowed area and propping it open.
Children may need several interventional catheterizations over time as they grow, since the narrowing process tends to recur and can become progressively worse.
Open-heart surgery
Some children may need open-heart surgery to widen the narrowed areas of the pulmonary veins to allow blood to flow from the lungs to the heart.
Drug therapy
The PVS team may recommend targeted drug therapy for your child in an effort to slow or stop the pulmonary vein stenosis from recurring. Your child would receive therapy for at least 6 to 12 months, depending on the severity of PVS, and would require monthly blood work.
Lung transplant
In some cases, the damage caused by PVS cannot be managed with cardiac catheterization or surgery. These children may need a lung transplant to replace the lungs and pulmonary veins.